Description Module

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Description Module

The Description Module contains narrative descriptions of the clinical trial, including a brief summary and detailed description. These descriptions provide important information about the study's purpose, methodology, and key details in language accessible to both researchers and the general public.

Description Module path is as follows:

Study -> Protocol Section -> Description Module

Description Module

Ignite Creation Date: 2025-12-25 @ 12:35 AM
Ignite Modification Date: 2025-12-25 @ 12:35 AM
NCT ID: NCT05228067
Brief Summary: Disturbances in the hypothalamus communication pathways with other regions in the brain and the periphery may represent a potential link between metabolic and cognitive health. The current project evaluates whether enhancing synaptic plasticity of this pathway can improve weight management, insulin sensitivity, and cognitive functions. In recent studies, we were able to show that the human brain is sensitive to insulin with favorable effects on peripheral metabolism and cognition. These brain regions encompass the hypothalamus and its connections to the striatum and prefrontal cortex. We want to investigate whether it is possible to enhance neuroplasticity of insulin-responsive brain regions to suppress the weight gain trajectory and improve dopamine-dependent cognitive functions in people with a high risk to develop type 2 diabetes. For this purpose, neuroimaging tools using high-definition transcranial direct current stimulation (HD-tDCS) and magnetic resonance imaging (MRI) will be implemented to assess synaptic plasticity of a neural network essential for metabolic and cognitive health.
Detailed Description: The overarching aim of the study is to investigate the possibility to enhance neuroplasticity of the hypothalamus network to improve metabolism and dopamine-dependent cognitive functions. Specific objectives * Specifically, it is the first aim to study the predictive value of white matter microstructure (fiber tracts structurally connecting the target network) for tDCS-intervention response and to investigate tDCS-induced neuroplasticity changes of the hypothalamus brain network using functional magnetic resonance imaging (fMRI). * It is the second aim of this study to deepen our understanding of brain structure and function of the target network, which is known to rely on the neurotransmitter dopamine for its communication. Hence, we will use dopamine-dependent cognitive and eating behavior assessments. Participants will receive a thorough screening to obtain body composition by MRI, anthropometric measures, fasting glucose and insulin, indirect calorimetry, and general cognitive functions. Thereafter, participants will participate in three measurement days (separated by approx. one week) to receive a 25 min tDCS stimulation targeting the hypothalamus network in a double-blind cluster-randomized. Participant are randomized on three conditions: sham stimulation, anodal and cathodal stimulation. During the non-invasive brain stimulation, participants will perform a stop-signal task. On each measurement day, structural and functional MRI measurements are performed before and after stimulation. Dopamine-dependent behavior (i.e. reward task) will be assessed during fMRI measurement. Subsequently, participants will receive a breakfast buffet. The caloric intake from fat, carbohydrates and protein will be documented. Subjective feeling of hunger and food craving will be assessed using a visual analogue scale before stimulation, directly after stimulation and after breakfast. Food pictures will be rated on a laptop for taste and healthiness.
Study: NCT05228067
Study Brief:
Protocol Section: NCT05228067